1
1
mirror of https://github.com/github/semantic.git synced 2024-12-30 10:27:45 +03:00
semantic/prototype/doubt-difftool/main.swift
2015-11-12 17:44:52 -05:00

206 lines
7.6 KiB
Swift
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

import Cocoa
import Doubt
import Prelude
import Madness
func benchmark<T>(label: String? = nil, _ f: () throws -> T) rethrows -> T {
let start = NSDate.timeIntervalSinceReferenceDate()
let result = try f()
let end = NSDate.timeIntervalSinceReferenceDate()
print((label.map { "\($0): " } ?? "") + "\(end - start)s")
return result
}
extension String: ErrorType {}
typealias Term = Cofree<String, Info>
typealias Diff = Free<Term.Leaf, (Term.Annotation, Term.Annotation), Patch<Term>>
typealias Parser = String throws -> Term
struct Source {
init(_ argument: String) throws {
let supportedSchemes = [ "http", "https", "file" ]
if let URL = NSURL(string: argument) where supportedSchemes.contains(URL.scheme) {
self.URL = URL
} else {
self.URL = NSURL(fileURLWithPath: argument)
}
contents = try NSString(contentsOfURL: URL, encoding: NSUTF8StringEncoding) as String
}
let URL: NSURL
var type: String {
if let pathExtension = URL.pathExtension where pathExtension != "" { return pathExtension }
return URL.fragment ?? ""
}
let contents: String
private static let languagesByType: [String:TSLanguage] = [
"js": ts_language_javascript(),
"c": ts_language_c(),
"h": ts_language_c(),
]
}
extension String.UTF16View {
subscript (range: Range<Int>) -> String.UTF16View {
return self[Index(_offset: range.startIndex)..<Index(_offset: range.endIndex)]
}
}
/// Allow predicates to occur in pattern matching.
func ~= <A> (left: A -> Bool, right: A) -> Bool {
return left(right)
}
func termWithInput(language: TSLanguage)(_ string: String) throws -> Term {
let keyedProductions: Set<String> = [ "object" ]
let fixedProductions: Set<String> = [ "pair", "rel_op", "math_op", "bool_op", "bitwise_op", "type_op", "math_assignment", "assignment", "subscript_access", "member_access", "new_expression", "function_call", "function", "ternary" ]
let document = ts_document_make()
defer { ts_document_free(document) }
return try string.withCString {
ts_document_set_language(document, language)
ts_document_set_input_string(document, $0)
ts_document_parse(document)
let root = ts_document_root_node(document)
return try Cofree
.ana { node, category in
let count = node.namedChildren.count
guard count > 0 else { return try Syntax.Leaf(node.substring(string)) }
switch category {
case fixedProductions.contains:
return try .Fixed(node.namedChildren.map {
($0, try $0.category(document))
})
case keyedProductions.contains:
return try .Keyed(Dictionary(elements: node.namedChildren.map {
switch try $0.category(document) {
case "pair":
return try ($0.namedChildren[0].substring(string), ($0, "pair"))
default:
// We might have a comment inside an object literal. It should still be assigned a key, however.
return try (try node.substring(string), ($0, $0.category(document)))
}
}))
default:
return try .Indexed(node.namedChildren.map {
($0, try $0.category(document))
})
}
} (root, "program")
.map { node, category in
// TODO: Calculate line and column from TSNodes
Info(range: node.range, lines: 0..<1, columns: 0..<1, categories: [ category ])
}
}
}
func toTerm(term: CofreeJSON) -> Term {
let lines = term.extract.0
let columns = term.extract.1
let range = term.extract.2
let annotation = Info(range: range, lines: lines, columns: columns, categories: [])
switch term.unwrap {
case let .Leaf(a):
return Term(Info(range: range, lines: lines, columns: columns, categories: a.categories), Syntax<Term, String>.Leaf(String(a)))
case let .Indexed(i):
return Term(annotation, .Indexed(i.map(toTerm)))
case let .Fixed(f):
return Term(annotation, .Fixed(f.map(toTerm)))
case let .Keyed(k):
return Term(annotation, .Keyed(Dictionary(elements: k.map { ($0, toTerm($1)) })))
}
}
func lines(input: String) -> Term {
var lines: [Term] = []
var previous = 0
var lineNumber = 0
input.enumerateSubstringsInRange(input.characters.indices, options: .ByLines) { (line, _, enclosingRange, _) in
let range: Range<Int> = previous..<(previous + enclosingRange.count)
previous = range.endIndex
if let line = line {
lineNumber += 1
lines.append(Term(Info(range: range, lines: 0..<lineNumber, columns: 0..<1, categories: []), Syntax.Leaf(line)))
}
}
return Term(Info(range: 0..<input.utf16.count, lines: 0..<lineNumber, columns: 0..<1, categories: []), .Indexed(lines))
}
func parserForType(type: String) -> String throws -> Term {
switch type {
case "json":
return { (input: String) throws -> Term in
switch parse(json, input: input.characters) {
case let .Right(term):
return toTerm(term)
case let .Left(error):
throw error.description
}
}
default:
if let parser = Source.languagesByType[type].map(termWithInput) {
return parser
}
return lines
}
}
extension ForwardIndexType {
/// The range encompassing a single index.
var range: Range<Self> {
return self..<self.successor()
}
}
let cost = Diff.sum(Patch.sum(Term.size))
func refineLeafReplacement(aString: String, _ bString: String)(_ patch: Patch<Term>) -> Diff {
guard case let .Replace(.Unroll(aExtract, .Leaf), .Unroll(bExtract, .Leaf)) = patch else { return .Pure(patch) }
let a = aString.utf16[aExtract.range].enumerate().map { Term(Info(range: (aExtract.range.startIndex + $0).range, lines: aExtract.lines, columns: aExtract.columns, categories: aExtract.categories), .Leaf(String($1))) }
let b = bString.utf16[bExtract.range].enumerate().map { Term(Info(range: (bExtract.range.startIndex + $0).range, lines: bExtract.lines, columns: bExtract.columns, categories: bExtract.categories), .Leaf(String($1))) }
return .Roll((aExtract, bExtract), .Indexed(SES(a, b, cost: cost, recur: { Term.equals(annotation: const(true), leaf: ==)($0, $1) ? Term.zip($0, $1).map(Diff.init) : Diff.Replace($0, $1) })))
}
let parsed = benchmark("parsing arguments & loading sources") { parse(argumentsParser, input: Process.arguments) }
let arguments: Argument = try parsed.either(ifLeft: { throw "\($0)" }, ifRight: { $0 })
let (aSource, bSource) = arguments.sources
let jsonURL = NSURL(fileURLWithPath: NSTemporaryDirectory(), isDirectory: true).URLByAppendingPathComponent("diff.json")
guard let uiPath = NSBundle.mainBundle().infoDictionary?["PathToUISource"] as? String else { throw "need ui path" }
guard aSource.type == bSource.type else { throw "cant compare files of different types" }
let parser = parserForType(aSource.type)
let a = try benchmark("parsing source a") { try parser(aSource.contents) }
let b = try benchmark("parsing source b") { try parser(bSource.contents) }
let initialDiff = benchmark("diffing") { Interpreter<Term>(equal: Term.equals(annotation: const(true), leaf: ==), comparable: Interpreter<Term>.comparable { $0.extract.categories }, cost: cost).run(a, b) }
let diff = benchmark("diffing within leaves") { initialDiff.flatMap(refineLeafReplacement(aSource.contents, bSource.contents)) }
switch arguments.output {
case .Split:
let JSON: Doubt.JSON = [
"before": .String(aSource.contents),
"after": .String(bSource.contents),
"diff": diff.JSON(pure: { $0.JSON { $0.JSON(annotation: { $0.JSON }, leaf: Doubt.JSON.String) } }, leaf: Doubt.JSON.String, annotation: {
[
"before": $0.JSON,
"after": $1.JSON,
]
}),
]
let data = JSON.serialize()
try data.writeToURL(jsonURL, options: .DataWritingAtomic)
let components = NSURLComponents()
components.scheme = "file"
components.path = uiPath
components.query = jsonURL.absoluteString
if let URL = components.URL {
NSWorkspace.sharedWorkspace().openURL(URL)
}
case .Unified:
print(benchmark("formatting unified diff") { unified(diff, before: aSource.contents, after: bSource.contents) })
}